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Answer :
The output impedance transfer function of a buck-boost converter in CCM is derived mathematically to understand the circuit's behavior and performance.
Output impedance transfer function of a buck-boost converter in Continuous Conduction Mode (CCM) with a PWM switch model can be derived by analyzing the circuit and waveforms. The output impedance transfer function is crucial for understanding the converter's behavior and stability.
For example, in a buck-boost converter, the output impedance affects the load regulation and overall performance. By manipulating the converter's equations and considering the control signals, the transfer function can be mathematically determined.
This analysis helps in designing efficient power converters and optimizing their performance based on the system requirements.
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